Ghunimat, D., Alzoubi, A. E., Alzboon, A., & Hanandeh, S. (2022). Prediction of concrete compressive strength with GGBFS and fly ash using multilayer perceptron algorithm, random forest regression and k-nearest neighbor regression. Asian Journal of Civil Engineering: Building and Housing, 1-9. https://doi.org/10.1007/s42107-022-00495-z

GHUNIMAT, Dalin, ALZOUBI, Ahmed Essa, ALZBOON, Abdelrahman and HANANDEH, Shadi, 2022. Prediction of concrete compressive strength with GGBFS and fly ash using multilayer perceptron algorithm, random forest regression and k-nearest neighbor regression. Asian Journal of Civil Engineering: Building and Housing. 30 August 2022. P. 1-9. DOI 10.1007/s42107-022-00495-z.

Ghunimat, D., A. E. Alzoubi, A. Alzboon, and S. Hanandeh. “Prediction of Concrete Compressive Strength With GGBFS and Fly Ash Using Multilayer Perceptron Algorithm, Random Forest Regression and K-Nearest Neighbor Regression”. Asian Journal of Civil Engineering: Building and Housing, Aug. 2022, pp. 1-9, https://doi.org/10.1007/s42107-022-00495-z.

Ghunimat, Dalin/Alzoubi, Ahmed Essa/Alzboon, Abdelrahman/Hanandeh, Shadi: Prediction of concrete compressive strength with GGBFS and fly ash using multilayer perceptron algorithm, random forest regression and k-nearest neighbor regression, Asian Journal of Civil Engineering: Building and Housing 2022, 1-9.

Ghunimat, D., Alzoubi, A.E., Alzboon, A. and Hanandeh, S. (2022), “Prediction of concrete compressive strength with GGBFS and fly ash using multilayer perceptron algorithm, random forest regression and k-nearest neighbor regression”, Asian Journal of Civil Engineering: Building and Housing, pp. 1-9.